Department of Industrial & Manufacturing Engineering & Technology
1. Course Title:
IME386
Industrial & Managerial Engineering
3 Semester Hours
2. Description: Principles of IE applied to design of an organization=s physical facilities and operating systems.
Analysis and measurement of human work applied to work system design. Laboratory and
interdisciplinary community projects.
3. Prerequisites:
Topics:
Computer competency Co-requisite: 2nd semester of calculus
4. Textbook: Course Notes by Kroll – or equivalent
Reference:
Laboratory and background data on Sakai
5. Course Outcomes:
Contributes to Student Outcomes
Description
EAC MFE
Item
Analysis and measurement of human work by direct observation & MOST
a,b,c,e,f,g,j
A
Development of mathematical models for managerial problems
a,b,c,h
B
Appreciation
of
ISO
standards
c, f, g, j
C
Development of concurrent engineering and teams
c, d, i,
D
Appreciation
of
Engineering
Ethics
f, h
E
6. Topics:
LECTURES
1 Americans with Disabilities
2 Methods analysis, routings, training
3 Time Study, Work Sampling, MOST
4 Forecasting, Inventory Control, Production Planning
5 Project Planning
6 QFD, ISO 9000, ISO 14000, concurrent engineering
7 Ethical Responsibility of engineers
Contributes to Course Outcomes (5)
Outcome
A, D
A
A
B
B, D
C, D
E
1
2
3
4
5
6
LABORATORIES
Work Place design/Methods analysis
Time study
Pace Rating
MOST
QFD
JIT/Kanban
Outcome
A
A
A
A
D
B
1
2
PAPERS/PROJECTS
ADA development
Ethics case study mini-project
Outcome
A,D
D, E
7. Class Schedule: Two 100 minute lecture/labs sessions per week
8. Contribution of Course to Meeting the Professional Component:
EAC
Mathematics and Basic Science
Engineering Topics, Engineering Science, Engineering Design
General Education
Hours
0.5
2.5
0
5 scales, 5 denotes very strong
continuation to the student outcome and blank cell denotes that the course does not continue the
related student outcome)
9. Relationship of Course to MFE Student Outcomes: (based on 1 to
Code
a
b
c
d
e
f
g
h
i
j
k
Student Outcomes, A Graduate from the Program Will Have:
Manufacturing Engineering graduates will have an ability to apply knowledge of
mathematics and science to manufacturing processes, materials, and design of
manufacturing systems
Manufacturing Engineering graduates will have an ability to design and conduct
experiments, and to analyze and interpret data related to manufacturing processes,
materials evaluation, and manufacturing systems
Manufacturing Engineering graduates will have an ability to design, select, implement, and
control a manufacturing system and its components or processes to meet desired needs
Manufacturing Engineering graduates will have an ability to function on multi-disciplinary
teams and the ability to apply a concurrent approach and project management to process
and product development
Manufacturing Engineering graduates will have an ability to identify, formulate, and solve
manufacturing engineering problems through a hands-on approach that considers
constraints, costs, benefits, and comparative processes and materials
Manufacturing Engineering graduates will have an understanding of the professional and
ethical responsibilities of a manufacturing engineer
Manufacturing Engineering graduates will have an ability to effectively communicate
technical concepts through appropriate methods
Manufacturing Engineering graduates will have an understanding of the impact of
manufacturing engineering solutions in a global, economic, environmental, and societal
context
Manufacturing Engineering graduates will have a recognition of the need to engage in
lifelong learning
Manufacturing Engineering graduates will have a knowledge of contemporary issues
facing manufacturing engineers
Manufacturing Engineering graduates will have an ability to use the proper techniques,
skills, and modern engineering tools necessary for manufacturing engineering practice
utilizing supporting technologies
10. Prepared by: Dennis E. Kroll 5/13
Contribution
0.40
Reviewed by: Curriculum Committee
1.29
1.25
2.71
0.60
1.50
3.00
0.75
0.33
2.00
—